Transient receptor potential vanilloid 4-mediated disruption of the alveolar septal barrier: a novel mechanism of acute lung injury. - Wikidata - wikimedia - TriplyDB

Transient receptor potential vanilloid 4-mediated disruption of the alveolar septal barrier: a novel mechanism of acute lung injury.

Transient receptor potential vanilloid 4-mediated disruption of the alveolar septal barrier: a novel mechanism of acute lung injury.

http://www.wikidata.org/entity/Q36926550

about

International Union of Basic and Clinical Pharmacology. LXXVI. Current progress in the mammalian TRP ion channel family Studies on the cell biology of interendothelial cell gaps In the absence of effector proteins, the Pseudomonas aeruginosa type three secretion system needle tip complex contributes to lung injury and systemic inflammatory responses Pharmacological inhibitors of TRPV4 channels reduce cytokine production, restore endothelial function and increase survival in septic mice The TRPV4 channel contributes to intercellular junction formation in keratinocytes Focal adhesion kinase and endothelial cell apoptosis.Prevention of ventilator-induced lung edema by inhalation of nanoparticles releasing ruthenium red.Arterial response to shear stress critically depends on endothelial TRPV4 expression.Transient receptor potential (TRP) channels in the airway: role in airway disease.Optimization of a Novel Series of TRPV4 Antagonists with In Vivo Activity in a Model of Pulmonary Edema TRPing on the lung endothelium: calcium channels that regulate barrier function.A unique pulmonary microvascular endothelial cell niche revealed by Weibel-Palade bodies and Griffonia simplicifolia Transient receptor potential channels and regulation of lung endothelial permeability.Sensing hot and cold with TRP channels.Perivascular fluid cuffs decrease lung compliance by increasing tissue resistance.Actin cytoskeleton regulates stretch-activated Ca2+ influx in human pulmonary microvascular endothelial cells.TRPV4 channels augment macrophage activation and ventilator-induced lung injury.Role of MMP2 and MMP9 in TRPV4-induced lung injury.Quantitative GPCR and ion channel transcriptomics in primary alveolar macrophages and macrophage surrogates Chondroprotective role of the osmotically sensitive ion channel transient receptor potential vanilloid 4: age- and sex-dependent progression of osteoarthritis in Trpv4-deficient mice.Caspase-1 Activation Protects Lung Endothelial Barrier Function during Infection-Induced Stress.TRPV4 is necessary for trigeminal irritant pain and functions as a cellular formalin receptor.Role of TRP channels in the cardiovascular system.Adenosine monophosphate-activated kinase alpha1 promotes endothelial barrier repair.Mechanotransduction via TRPV4 regulates inflammation and differentiation in fetal mouse distal lung epithelial cells.Functional coupling of TRPV4, IK, and SK channels contributes to Ca(2+)-dependent endothelial injury in rodent lung Upregulation of osmo-mechanosensitive TRPV4 channel facilitates chronic hypoxia-induced myogenic tone and pulmonary hypertension Transient receptor potential genes, smoking, occupational exposures and cough in adults.Regulation and function of the two-pore-domain (K2P) potassium channel Trek-1 in alveolar epithelial cells.Transient receptor potential channels in the vasculature.Genetic deficit of KCa 3.1 channels protects against pulmonary circulatory collapse induced by TRPV4 channel activation.Update on vascular endothelial Ca(2+) signalling: A tale of ion channels, pumps and transporters Hydrogen peroxide-induced calcium influx in lung microvascular endothelial cells involves TRPV4.TRPV4 Mechanosensitive Ion Channel Regulates Lipopolysaccharide-Stimulated Macrophage Phagocytosis.Endothelium-Derived Hyperpolarization and Coronary Vasodilation: Diverse and Integrated Roles of Epoxyeicosatrienoic Acids, Hydrogen Peroxide, and Gap Junctions.Shear stress regulates aquaporin-5 and airway epithelial barrier function High vascular pressure-induced lung injury requires P450 epoxygenase-dependent activation of TRPV4 Transient receptor potential (TRP) channels as a therapeutic target for intervention of respiratory effects and lethality from phosgene.TRPV4 and the regulation of vascular tone Activation of TRPV1-dependent calcium oscillation exacerbates seawater inhalation-induced acute lung injury.

P2860

Q24623493-BCE127B9-E4AF-47D7-BED5-4454A9E79AAE Q26866419-9510B64F-FFD8-49BC-8270-3DA5DDCF2994 Q27300857-6D722348-D02B-4EB6-8030-3FD657C327B0 Q27345533-95DBEABA-9323-42B6-A29C-62DAEBEAFD69 Q28585340-F7E81DD7-B7AA-45D5-B8B1-3082DBBFA6DD Q30459602-0AC6E1EB-DDBB-4D35-862A-A1371495E2BF Q30581469-06B25B60-88B8-42DE-8809-2BE509F1F887 Q30833847-2D06079F-533C-427F-A436-DD0BCEAF1035 Q33562184-479FBD60-F714-4BC7-8AB6-09D8F5DFEAAA Q33636002-935653B9-D408-403E-8050-35889371CA54 Q33772580-F9820533-C118-4174-BAAB-1C390BB994EC Q33805963-5D54FA11-50D8-459B-967A-B6AF7EC7D604 Q33806230-79BFC45A-C97F-4D7A-B425-1FDFB60C2A38 Q33904526-16CD66A3-C584-4ED2-8B51-7AD4B0FA4721 Q34013649-4C911AB6-E23E-4A24-A3D0-2A990AB4A645 Q34026300-2E664CA4-148E-4C3A-A22D-6AB7293BB1A6 Q34180796-E84F80F5-97D4-4A15-A429-0D8D3F2D6512 Q34356452-E4BD99BA-9A1F-4FB0-B081-A7429567BFD6 Q34458556-6A9FA14A-42B0-4B4E-98FA-26B00E08F986 Q34522629-C2CCFB92-B394-48BE-81D5-E4C14FDCC55E Q34523851-B3E46151-A434-42DC-B88D-C9306B9EF652 Q34972684-9B4FA3F4-1BA5-42DF-9B7A-17D3A28510D2 Q35035202-F5D8D4E2-95E3-4010-9805-9C08373257D3 Q35225087-65644DE7-F04D-46CB-B355-1A3801F46642 Q35658721-12D4957A-6452-451A-9791-757918055803 Q35665731-5EB53BFC-FF19-45B5-A37A-4A21D9D82DA3 Q35850305-A95BB2FA-A333-4B04-BBAE-93C22132D4A6 Q35927719-5449E3E8-1DDC-454F-96AE-730DE171F5B5 Q35950232-3986EEE4-00C1-42DF-B928-4F9E44B04065 Q36000376-A0D9880B-CBD7-451A-97BA-6C3003DD913A Q36036232-90EF7CD2-96B8-49D9-8F75-051C7A048327 Q36170493-1DE2C898-F399-4986-9ED8-0B093B2BD24A Q36382147-92BDA6A7-6BF1-4EF8-8DF2-B7B92EE19D7D Q36387097-4F627DBE-AA0D-4AA2-B687-FAD35FD24ACD Q36450226-AC9387A4-6B33-4919-A38B-B1DE72F19A0B Q36491366-0F8A5DB5-1FD2-4278-8B6F-CD8C82676746 Q36508703-E5FB1A5F-A9F4-4B27-BAC4-434AE354D866 Q36578651-09213F2B-50D8-4D57-8230-92FAD3C9D929 Q36589012-8FEEB209-1107-4223-89B2-784B00BE1F27 Q36623886-F88C1DBF-0EC2-448D-98E2-86AE98D42D68

P2860

Transient receptor potential vanilloid 4-mediated disruption of the alveolar septal barrier: a novel mechanism of acute lung injury.

http://www.wikidata.org/entity/Q36926550

description

2006 nî lūn-bûn

@nan

2006年の論文

@ja

2006年論文

@yue

2006年論文

@zh-hant

2006年論文

@zh-hk

2006年論文

@zh-mo

2006年論文

@zh-tw

2006年论文

@wuu

2006年论文

@zh

2006年论文

@zh-cn

name

Transient receptor potential v ...... echanism of acute lung injury.

@en

type

label

Transient receptor potential v ...... echanism of acute lung injury.

@en

prefLabel

Transient receptor potential v ...... echanism of acute lung injury.

@en

P1433

Q36926550-50A2B5A1-4421-4193-8ECA-D7C4DA71F94F

P1476

Q36926550-0D0A528F-4BA6-48BC-B8AC-D695FC4288E2

P2093

Q36926550-501E371C-7663-4DDC-895C-B7FC07E52531

Q36926550-5812E55C-E494-4602-B674-0B98E5D178FB

Q36926550-7CCECD68-2428-4B62-8239-67A046BDD00B

Q36926550-D3398092-A0BE-4063-A0AC-A10F80C5F0E8

Q36926550-FB556BA9-A77F-4D5D-9DD8-8E09CB7F2471

P2860

Q36926550-0CB09743-37A0-4BF1-8118-3AC0AEC67F93

Q36926550-0DFCCC4B-54D3-4DA0-ABF0-2E037F2C4258

Q36926550-15FBA446-464B-493F-8A9C-A5EB454CA635

Q36926550-1725CEE1-11B4-435B-B1E2-A3B7FFBB2ED7

Q36926550-1B8AE5C2-6216-4828-A955-2B02C7DFB311

Q36926550-1FA15F30-A537-41B7-9AD0-39C22C86F117

Q36926550-22F0A9C6-44C0-4D1A-8022-8A4A80197135

Q36926550-237BE6E6-153F-4605-940E-946B117F99F4

Q36926550-27D3CEB6-0B3F-438A-BE25-3F9F090897D5

Q36926550-2AE43930-2F78-46E4-B4AF-BB75A9AE2AB9

P304

Q36926550-B59E4CAF-8F3B-48A0-9E30-A3D9170CCB51

P31

Q36926550-D8F99AE0-E9F6-4905-8D9B-E6B2AB439089

P356

Q36926550-759BFC5B-1231-487E-AC56-1601AFEC4458

P433

Q36926550-34BC54DA-4EFD-418A-8233-F58579CB7819

P478

Q36926550-14ADA112-F21C-4520-8A86-AB17924E955B

P50

Q36926550-E677EC97-9B3E-420A-947B-6FCEDBB007EF

P577

Q36926550-1DD27568-E8A8-4E57-975E-5BF4EFFCB897

P5875

Q36926550-D0AC0DBA-5009-4B7F-A0E5-AE0E1107D276

P698

Q36926550-4506160A-5997-4EFA-8244-0893E5DFCE6E

P932

Q36926550-C2529A64-00E4-4D6D-93ED-82D16F2DBD0A

P356

01.RES.0000247065.11756.19

P1433

Circulation Research

P1476

Transient receptor potential v ...... mechanism of acute lung injury

@en

P2093

David Weber

http://www.w3.org/2001/XMLSchema#string

Emile Addison

http://www.w3.org/2001/XMLSchema#string

Judy A King

http://www.w3.org/2001/XMLSchema#string

Mary I Townsley

http://www.w3.org/2001/XMLSchema#string

Wolfgang Liedtke

http://www.w3.org/2001/XMLSchema#string

P2860

OTRPC4, a nonselective cation channel that confers sensitivity to extracellular osmolarity

Maxi K+ channel mediates regulatory volume decrease response in a human bronchial epithelial cell line

Transient receptor potential vanilloid 4 regulates aquaporin-5 abundance under hypotonic conditions.

Vanilloid receptor-related osmotically activated channel (VR-OAC), a candidate vertebrate osmoreceptor

Epoxyeicosatrienoic acids (EETs): metabolism and biochemical function

The American-European Consensus Conference on ARDS. Definitions, mechanisms, relevant outcomes, and clinical trial coordination

P-450 metabolites of arachidonic acid in the control of cardiovascular function

Mammalian TRPV4 (VR-OAC) directs behavioral responses to osmotic and mechanical stimuli in Caenorhabditis elegans

Abnormal osmotic regulation in trpv4-/- mice.

Synthesis of arachidonic acid-derived lipoxygenase and cytochrome P450 products in the intact human lung vasculature.

P304

988-995

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1161/01.RES.0000247065.11756.19

http://www.w3.org/2001/XMLSchema#string

P433

9

http://www.w3.org/2001/XMLSchema#string

P478

99

http://www.w3.org/2001/XMLSchema#string

P50

P577

2006-09-28T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

6785418

http://www.w3.org/2001/XMLSchema#string

P698

17008604

http://www.w3.org/2001/XMLSchema#string

P932

2562953

http://www.w3.org/2001/XMLSchema#string